Scientists measure how sensory stimuli are processed in the brain

Scientists measure how sensory stimuli are processed in the brain

If we cross a road with our smartphone in view, a car horn or engine noise will startle us. In everyday life we can easily combine information from different senses and shift our attention from one sensory input to another - for example, from seeing to hearing. But how does the brain decide which of the two senses it will focus attention on when the two interact? And, are these mechanisms reflected in the structure of the brain? To answer these questions, scientists at the Max Planck Institute for Human Cognitive and Brain Sciences (MPI CBS) in Leipzig and the Computational Neuroscience and Cognitive Robotics Centre at the University of Birmingham measured how sensory stimuli are processed in the brain. In contrast to previous studies, they did not restrict their observations to the surface the cerebral cortex. For the first time, they also measured the sensory signals at different depths in the cortex. The researchers' findings suggest that our brains conduct the multi-sensory flow of information via distinct circuits right down to the smallest windings of this highly folded brain structure. While the participants in their study were lying in a magnetic resonance tomograph (MRI), the scientists showed them visual symbols on a screen while simultaneously playing sounds. In a prior condition, the participants had been asked to explicitly focus their attention on either the audible or visible aspect of the stimuli. The neurophysicists Robert Turner, Robert Trampel and Rémi Gau then analyzed at which exact points the sensory stimuli were being processed. Two challenges needed to be overcome. The cerebral cortex is only two to three millimeters thick. So we needed a very high spatial resolution (of less than one millimeter) during data acquisition. Also, due to the dense folding of the cerebral cortex, we had to digitally smooth it and break it down into different layers, in order to be able to precisely locate the signals. This was all done on a computer of course." Robert Trampel, co-director of the study at the MPI CBS Related Stories



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